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AVAILABLE CONFIGURATIONS
^^^^^^^^^^^^^^^^^^^^^^^^
arm-defconfig
Builds an ARM toolchain using gcc 3.4.6
arm7tdmi-defconfig-4.2.4
arm920t-defconfig-4.2.4
arm926t-defconfig-4.2.4
Builds an ARM toolchain using gcc 4.2.4. This configuration
builds both gcc and g++. There are three versions: one for
arm7tdmi (armv4t), arm920t (armv4t) and arm926t (arv5t) because
of differences in the way that soft floating is handled in between
the armv4t and arm5t architectures.
NOTE: The newer versions of GCC generate new sections and can
cause some problems for NuttX configurations developed under older
toolchains. In particular, arm-elf-objcopy may fail with strange
errors. If this occurs, try adding the following arguments to the
arm-elf-objcopy command "-R .note -R .note.gnu.build-id -R .comment"
This logic is several configuration Make.defs files:
HOSTOS = ${shell uname -o}
ARCHCCVERSION = ${shell $(CC) -v 2>&1 | sed -n '/^gcc version/p' | sed -e 's/^gcc version \([0-9\.]\)/\1/g' -e 's/[-\ ].*//g' -e '1q'}
ARCHCCMAJOR = ${shell echo $(ARCHCCVERSION) | cut -d'.' -f1}
ifeq ($(ARCHCCMAJOR),4)
ifneq ($(HOSTOS),Cygwin)
OBJCOPYARGS = -R .note -R .note.gnu.build-id -R .comment
endif
endif
This change probably applies to other architectures as well (?)
arm920t-defconfig-4.3.3
arm7tdmi-defconfig-4.3.3
Builds an ARM toolchain using gcc 4.3.3. These configurations
builds both gcc and g++ for the arm7tdmi (armv4t) or the arm920t
(armv4t). These are udates to *-defconfig-4.2.4 (see notes above).
avr-defconfig-4.3.3
Builds an AVR toolchain using gcc 4.3.3. This configuration
builds both gcc and g++ for the AVR (armv4t). This toolchain
is intended to support the NuttX ATmega128 port.
cortexm3-defconfig-4.3.3
Builds an ARM toolchain for the Cortex-M3 using gcc 4.3.3.
This configuration builds gcc, g++ and the NXFLAT toolchain.
cortexm3-defconfig-nxflat
This configuration build an NXFLAT toolchain (only) for
use with the Cortex-M3
bfin-defconfig-4.2.4
Builds an Blackfin toolchain using gcc 4.2.4
h8300_config
Builds an H8/300 toolchain using gcc 3.4.6
m32c_defconfig_4.2.4
m32c_defconfig_4.3.3
Build a toolchain for use with the M16C port using eith gcc 4.2.4 or 4.3.3
m68hc11-config
m68hc12-config-3.4.6
Builds an hc11/hc12 toolchain using gcc 3.4.6 .
m68hc12-config-4.3.3
Builds an hc11/hc12 toolchain using gcc 4.3.3.
This configuration fails to build with the following error:
make[3]: Entering directory `blabla/buildroot/toolchain_build_m68hc12/gcc-4.3.3-build/m68hc12-elf/libgcc'
...
blabla/buildroot/toolchain_build_m68hc12/gcc-4.3.3/libgcc/../gcc/libgcc2.c:566: internal compiler error: in init_move_cost, at regclass.c:323
Please submit a full bug report,
with preprocessed source if appropriate.
See <http://gcc.gnu.org/bugs.html> for instructions.
make[3]: *** [_muldi3.o] Error 1
make[3]: Leaving directory `blabla/buildroot/toolchain_build_m68hc12/gcc-4.3.3-build/m68hc12-elf/libgcc'
Use m68hc12-config-3.4.6
m68k-config
Builds an M68K toolchain using gcc 3.4.6
sh-defconfig
Builds an SH-1/2 toolchain using gcc 3.4.6
GENERAL BUILD STEPS
^^^^^^^^^^^^^^^^^^^
1. Configure your host machine. You host PC should have a relatively complete
C development environment. I don't have a full list of the package requirements.
The later tool chains also require GMP and MPRF development packages or the
build will fail with errors like:
"configure: error: Building GCC requires GMP 4.1+ and MPFR 2.3.0+. ...
Copies of these libraries' source code can be found at their respective
hosting sites as well as at ftp://gcc.gnu.org/pub/gcc/infrastructure/.
See also http://gcc.gnu.org/install/prerequisites.html for additional info.
If you obtained GMP and/or MPFR from a vendor distribution package, make
sure that you have installed both the libraries and the header files.
They may be located in separate packages."
You should try your package manager for whatever Linux version you are using
first. The header files are normally included in versions of the packages that
have "-devel" in the package name.
2. CD to the correct directory.
Change to the directory just above the NuttX installation. If <nuttx-dir> is
where NuttX is installed, then cd to <nuttx-dir>/..
3. Get and Install the buildroot Module
a. Using a release tarball:
cd <nuttx-dir>/..
Download the appropriate buildroot package.
unpack the buildroot package
rename the directory to buildroot
b. Using CVS
Check out the misc/buildroot module. CVS checkout instructions:
cvs -d:pserver:anonymous@nuttx.cvs.sourceforge.net:/cvsroot/nuttx login
cvs -z3 -d:pserver:anonymous@nuttx.cvs.sourceforge.net:/cvsroot/nuttx co -P misc/buildroot
Move the buildroot Source Tree and create the archive directory
mv misc/buildroot .
Make the archive directory:
mkdir archive
The <nuttx-dir>/../buildroot is where the toolchain is built;
The <nuttx-dir>/../archive directory is where toolchain sources will be downloaded.
4. Make sure that NuttX is configured
cd <nuttx-dir>/tools
./configure.sh <nuttx-configuration>
5. Configure and Make the buildroot
cd buildroot
cp configs/<config-file> .config
make oldconfig
make
This will download the large source packages for the toolchain and build the toolchain.
The resulting binaries will be under buildroot/build_<arch>. There will also be a
large build directory called something like toolchain_build_<arch>; this directory
can be removed once the build completes successfully.
Where <config-file> is one of the configuration files listed above and <arch> is an
archtecture name. Examples: build_m32c, build_arm_nofpu, etc.
Cygwin GCC BUILD NOTES
^^^^^^^^^^^^^^^^^^^^^^
o Cygwin normally creates a /home directory with your Windows user name. Unfortunately,
that could very likely include spaces. In that case, the Cygwin build will have
lots of problems. Here is how I worked around that:
- I created a /home/buildroot directory and copied buildroot to that location
(/home/build/buildroot/buildroot)
- I have the archives directory at /home/buildroot/archives
- And a symbolic link to the nuttx build directory at /home/buildroot/nuttx
With those workarounds, the buildroot will build. However, you will also need
to either edit the setenv.sh file to reference this new location, or else move
resulting build diectory.
o On Cygwin, the buildroot 'make' command will fail with an error like:
"...
build/genchecksum cc1-dummy > cc1-checksum.c
opening cc1-dummy: No such file or directory
..."
This is caused because on Cygwin, host executables will be generated with the extension .exe
and, apparently, the make variable "exeext" is set incorrectly. A work around after the
above occurs is:
cd toolchain_build_<arch>/gcc-4.2.4-build/gcc # Go to the directory where error occurred
mv cc1-dummy.exe cc1-dummy # Rename the executable without .exe
rm cc1-checksum.c # Get rid of the bad generated file
Then resume the buildroot make:
cd - # Back to the buildroot make directory
make # Restart the build
If you build g++, you will see another similar error:
...
build/genchecksum cc1plus-dummy > cc1plus-checksum.c
opening cc1plus-dummy: No such file or directory
...
The fix is similar:
cd toolchain_build_<arch>/gcc-4.2.4-build/gcc # Go to the directory where error occurred
mv cc1plus-dummy.exe cc1plus-dummy # Rename the executable without .exe
rm cc1plus-checksum.c # Get rid of the bad generated file
Then resume the buildroot make:
cd - # Back to the buildroot make directory
make # Restart the build
o Once I had problems building the toolchain on Cygwin. In this case, I
would occasioinally get "Permission denied" errors will trying to configure
the toolchain. My hunch is that this error was caused because of failures
to remove some temporary files (like conftest.c). Perhaps there errors
occurred because some other application opened those files too??? Perhaps
a virus scanner.
Sometimes when this occurs, the build continues to execute. If that is
the case, it could end-up making a bad toolchain??? In this case, you need
to hit Control-C to stop the build. Normally, however, the "Permission
denied" error causes the configure script to stop. In either case, if you
just restart the make, the build will continue past the failure point.
This has happened to me only while doing other intensive activities in
windows during the toolchain build. I suspect if you leave your PC
mostly idle while the toolchain builds, this will not likely be a problem
for you.
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